JPH04172646A - Rotary head assembly - Google Patents

Abstract

PURPOSE:To prevent sticking of a magnetic tape to a stationary drum by providing a through hole having a small diameter to communicate with the inner periphery of the drum at the surface of the drum, on which the tape slides, and absorbing moisture generated on an oscillating surface via the hole. CONSTITUTION:After insulating layers 15 are formed on inner, outer peripheral surfaces of a stationary drum 3 formed with a small hole 11 at a contact surface with a magnetic tape and the inner surface of the hole 11, solid polymer electrolyte 12 is buried in the hole 11, and a dehumidifying element 18 is formed of the electrode 12, metal plating electrodes 13, 14 and a DC power source 17. Moisture formed between the tape and the surface of the electrode 13 in contact with the tape is decomposed to oxygen and hydrogen ions, the generated hydrogen ions move in the electrolyte 12 to recombine with the oxygen at the electrode 14 and to be discharged as moisture into the atmosphere. Thus, sticking of the tape to the drum 3 can be prevented, and sticking, slipping, vibration of the tape can be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to improvements in the recording and reproducing characteristics of a magnetic recording device and improvements in the running characteristics of a magnetic tape.

[Prior Art] FIG. 5 is a perspective view showing a structure around a rotary radar assembly for a conventional VTR. In the figure, (1) is the rotating drum, (2) is the head mounting window provided on the rotating tram (1), (3) is the fixed drum that rotatably supports the rotating drum (1), and (4) is the head mounting window. Head attached to (2), (5) magnetic tape, (6) guide bin, (7) guide roller, (8) guide magnetic deso (5) formed on fixed drum (3) The lead is full.

Next, the operation will be explained. Magnetic tape (5) is 1
It travels while being wound diagonally around the rotating drum (1) and fixed drum (3). Rotating drum (1) is 1.8 (
A head (4) rotating at 10 rpm and attached to a rotating tram (1) scans the magnetic tape (5) F obliquely. The head (4) protrudes from the head mounting window (2), and records and reproduces signals on the magnetic tape (5) by bringing the head (4) into contact with the magnetic tape (5).

When the magnetic tape (5) runs in the direction of arrow A, the guide bin (6), guide roller (7), and reel are arranged so that the relative positions of the head (4) and the magnetic tape (5) match. According to Sei (8), magnetism: r-te・′ (5)
At this time, the magnetic disk (5), the head (4), the rotating drum itself) and the fixed drum (3)
The contact state of the rotary tram (1) is as shown in Fig. 6A.
An air film (9) is formed between the rotary tom (1) and the magnetic tape (5i), and there is no direct contact between the rotating tom (1) and the magnetic tape (5i). ) and the magnetic tape (5), which is as high as 5.f1 m/s.

On the other hand, since the national drum (3) is fixed, the relative speed with respect to the magnetic tape (5) is 0.03 m/s, and there is an air film (9) between the fixed tram (3) and the magnetic tape (5). ) is not formed and there is direct contact. The surface roughness of the magnetic tape (5) is 1 gm or less and is always smooth, so when the magnetic tape (5) runs without coming into contact with the identification tram (3), it raises the sliding knob and prevents the magnetic tape(
5) The magnetic tape (5) vibrates, and the magnetic tape (5) vibrates. The relative position between the throat (4) and the magnetic tape (5) moves to the bottom = v. do.

The magnetic tape (5) is fixed to the fixing tomb (31).
A minute moisture film (10) is formed on the 1111 of the fixed tram (3) and the magnetic rabe (5).

Then, a moisture film (lO) is formed at the contact interface between the identification drum (3) and the stave (5).
It is formed uniformly and the number of stone swords increases by -4. As a result,
The vibration of the magnetic tape (5) becomes intense, and △,...lt(
4) Beef cattle output may decrease or become noticeable.

Also, the adsorption by this water fr film (10) allows the magnetic tape (5) to run! Does the driving torque of the Buskunter increase and the running speed of the magnetic tape (5) change, or does the running of the magnetic tape (5) change? ” or stop].

[Problems to be Solved by the Invention] The conventional rotating assembly is based on the relative humidity of the surrounding area, the fixed drum (3) and the magnetic tape. (5) When a moisture film is formed between the magnetic tubes (5)
) or sticks, slips, ribs, or low beef cattle output, there are problems, +;', i, and in addition, the drive torque of the Yabustan motor is increased by 1], and the magnetic tape (5) There were some problems such as the first run stopped.

. This invention was made in order to solve the following problem: 1. degree is 1-'
t't to prevent the formation of a moisture film on the contact interface between the fixed tram (3) and the magnetic tape (5) +LL, fixed tread 0
・It is an object of the present invention to obtain a rotating head assembly that can prevent the magnetic tape (5) from adhering to the magnetic tape (5).・Sotoassé: Buri slides on the magnetic tape of the fixed drum, and has a small diameter hole that communicates with the inner circumferential surface of the fixed drum, and absorbs moisture generated on the sliding surface through the hole and absorbs the moisture inside. Dehumidification released to the peripheral surface 1
It is characterized by having steps.

[Function] The dehumidifying element according to the present invention absorbs and removes moisture generated on the sliding surface of the magnetic tape through the through holes, so it prevents the formation of a moisture film even if the relative humidity of the environment changes. I can do it.

[Embodiments of the invention] Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view of the stationary drum of this embodiment, and FIG. 2 is a partially enlarged longitudinal sectional view thereof.

In the figure, (11) is a small diameter through hole formed in the identification drum (3), (I2) is a solid polymer electrolyte embedded in the through hole (11), (13+, (141) is a solid polymer electrolyte (12) Metal plated electrodes formed on both sides of (
I5) is an insulating layer, (16) is a humidity sensor provided on the identification drum (3), (I7) is a DC power supply, a solid polymer electrolyte (12), and a metal plated electrode f131. f141
and a DC power source (17) form a dehumidifying element (18).

This dehumidifying element (18) is formed by the following procedure.

The inner and outer peripheral surfaces and small holes (11) of the fixed drum (3), which has small holes (11) formed in the contact surface with the magnetic tape (5).
After forming an insulating layer (15) on the inner surface, a solid polymer electrolyte (12) is embedded in the five through holes (11). The solid polymer electrolyte (12) is made of a substance that selectively transmits hydrogen ions, for example, a polymer material such as Nafion. Next, I-! ;) Porous metal-plated electrodes +!3+, (14) are formed on the outer and inner surfaces of the Z l"ram (3) and on both sides of the solid polymer electrolyte layer 2). This metal-plated electrode++3 ), (+4) are made of a material such as palladium, and the electrode (13) on the outer circumferential surface in contact with the magnetic tape (5) is the negative electrode, and the electrode (13) on the inner circumferential surface is the negative electrode.
A voltage is applied between the metal plated electrodes (13+ and (141) from the DC power supply (17) so that 4) becomes the iE pole.

The negative electrode configured in this way, that is, the magnetic tape (5
), the water formed between the metal plated electrode (13) and the magnetic tape (5) is decomposed into oxygen and hydrogen, and the hydrogen ions generated at this time are released into the solid state along the current flow. It moves within the molecular electrolyte (12), combines with oxygen again at the metal-plated positive electrode (14), becomes water, and is released into the atmosphere.

Humidity sensor (16) mounted on fixed tram (3)
measures the relative humidity of the surrounding environment and determines whether the relative humidity is 50~
When it exceeds about 60%, metal l,.

Electricity j1 is applied to the photoelectrodes (13+, (14+).

FIG. 33 is a perspective view of an identification drum according to another embodiment of the present invention, and FIG. 4 is a partially enlarged longitudinal sectional view thereof.

In the figure, the same symbols as those in FIGS. ), a through hole (11) is formed, and a metal plating electrode (13) is then formed on the 1- of the insulating layer (+5), and then a solid polymer is formed on the 1- layer of the metal plating electrode (13). Electrolyte layer (12)
of this solid polymer electrolyte layer (I2).
A metal plating electrode (14) is formed on the surface.

In this example, moisture generated between the magnetic tape (5) and the stationary tram (3) passes through the metal plating electrode (+3) through the perforated white I) and passes through the solid polymer electrolyte layer (12).
), it passes through the metal plating electrode (14) and is discharged to the inner peripheral side of the fixed drum (3). .

In this way, according to the first and second embodiments, even if the moisture film (10) is formed, it is removed, so the magnetic tube (10)
5) and the solid drum (3) do not stick together, preventing the stick-slip and vibration of the magnetic chip.
To Soto's (Jl cow output low toe can be prevented.

In addition, by preventing the magnetic tape (5) from attracting +1-, the coefficient of friction between the magnetic tape (5) and the β1 constant tram (3) can be reduced. It is possible to reduce the drive current of the stun motor and lower power consumption.

Furthermore, for example, in a metal tape formed by vapor-depositing a magnetic material, when a moisture film (10) is formed, the magnetic tape (5)
) may corrode and impair the reliability of the device, but such corrosion of the magnetic tape (5) can be prevented by removing moisture.

In the above embodiment, the rotary head assembly for VTR was explained, but Digital Audio Cheeve (
The present invention can be similarly applied to the rotating head assembly of DAT), and the same effect can be obtained.

Furthermore, the dehumidifying element may be installed in the guide bin (6) or other pins of the brake run 1r system in addition to the fixed track l\(3).
1-, ¥[,,! The same effect as the embodiment is achieved.

Furthermore, in the Example, an example using a proton-ion conductive homogeneous polymer electrolyte was explained, but as long as it is proton-ion conductive, other substances other than polymers, such as a β-alumina substituted substance, h, oxidized anti-dried hydrate, etc. can be applied in the same manner, and similar effects can be obtained.

[Effects of the Invention] As shown in -L- below, according to the present invention, a small diameter through hole is formed in the sliding surface of the fixed drum with the magnetic tape, and the sliding between the fixed drum and the magnetic tape is made through the through hole. Since it is equipped with a dehumidifying element that absorbs moisture generated on the moving surface and releases it to the inner peripheral surface, it has an effect that cannot be obtained with a rotating tram assembly that can prevent magnetic tape vibration and stick-slip.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a fixed drum according to an embodiment of the present invention;
FIG. 2 is an enlarged sectional view of the fixed drum of this embodiment,
Fig. 3 is a perspective view of a national drum according to another embodiment of the present invention, Fig. 4 is an enlarged sectional view of the stationary drum of this embodiment, and Fig. 5 is a view of a conventional rotating head assembly. FIG. 6 is a partially enlarged cross-sectional view showing the contact state between the m-stape and the rotary tram and the fixed tram. Solid polymer electrolyte, (13)i14)...Metal plated electrode, (15
+...Insulating layer, (16)...Humidity sensor, (17)
...Matoryudokujira, (18)...Dehumidification element. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (2)

[Claims] (1) A small-diameter through hole is formed so that the sliding surface of the fixed drum with the magnetic tape communicates with the inner circumferential surface of the fixed drum, and the moisture generated on the sliding surface is absorbed through this through hole. A rotary head assembly comprising: a dehumidifying element that discharges moisture to the inner circumferential side of the fixed drum. (2) The rotary head assembly according to claim 1, wherein the dehumidifying element is provided within the through hole or on the inner peripheral surface of the fixed drum.